In the intricate world of organic synthesis, certain chemical intermediates are indispensable due to their unique reactivity and structural versatility. 4-Bromo-2-iodoaniline (CAS: 66416-72-6) is one such compound, highly valued by chemists for its utility in creating complex molecular architectures, especially within the pharmaceutical and agrochemical industries. Understanding its properties and potential applications is key for any scientist or procurement specialist looking to leverage its capabilities.

Chemical Profile and Synthesis Utility

4-Bromo-2-iodoaniline is a halogenated aromatic amine, specified by its chemical formula C6H5BrIN and molecular weight of 297.92. It typically presents as a gray to purple powder, with a melting point range of 69-72°C. The presence of both bromine and iodine atoms on the aniline ring provides multiple reactive sites, allowing for diverse chemical transformations. This makes it an excellent starting material or intermediate in multi-step synthetic pathways. Its primary application is as a pharmaceutical intermediate, contributing to the development of novel drug compounds. Furthermore, its structure is beneficial in the synthesis of certain agrochemicals, enhancing crop protection solutions.

Procurement Considerations for R&D and Manufacturing

For researchers and manufacturers, sourcing 4-Bromo-2-iodoaniline requires careful attention to purity and supplier reliability. A high minimum purity, such as the 98% often specified, is essential to ensure predictable reaction outcomes and to avoid the introduction of unwanted byproducts. When planning to buy this chemical, it is advisable to seek out established manufacturers and suppliers who can provide comprehensive technical data, including Certificates of Analysis (CoA), and ensure consistent product quality. For those looking for efficient supply chain solutions, a reputable manufacturer in China, like NINGBO INNO PHARMCHEM CO.,LTD., offers a compelling option. We are dedicated to supplying high-grade 4-Bromo-2-iodoaniline to meet the rigorous demands of modern organic synthesis.

Leveraging 4-Bromo-2-iodoaniline in Your Projects

  • Targeted Functionalization: Utilize the distinct reactivity of bromine and iodine for selective chemical modifications.
  • Pharmaceutical Development: Integrate this intermediate into synthesis routes for new drug candidates.
  • Agrochemical Innovation: Explore its use in creating next-generation crop protection agents.
  • Custom Synthesis Projects: Engage with suppliers who can offer custom synthesis services if specific derivatives are required.

The strategic placement of halogens on the aniline ring makes 4-Bromo-2-iodoaniline a powerful tool for synthetic chemists. By ensuring you source this intermediate from a reliable manufacturer that prioritizes purity and consistency, you can confidently advance your research and development projects, whether they are in the pharmaceutical, agrochemical, or broader fine chemical sectors.